This application is a National Stage application of PCT international application PCT/EP2016/079117, filed on Nov. 29, 2016 which claims the priority of French Patent Application No. 15 61578, filed on Nov. 30, 2015, both of which are incorporated herein by reference in their entirety.
The invention relates to a connecting device between a vessel closed by a perforable stopper and a container, a connection assembly comprising the vessel, the container and the device and a method for filling the container using this device.
In particular, the connecting device according to the invention makes it possible, on the one hand, to reconstitute a drug inside a container, such as a syringe body, and on the other hand, to assemble a hypodermic needle on the syringe body, so as to obtain a ready-to-use syringe, i.e., a syringe ready for an injection. The connecting device according to the invention is therefore configured to reconstitute a drug for an injection.
Conversely, US-A-2010/0241088 and US-A-2008/0249479 each disclose a system in which the syringe is a needle-less syringe. Once filled, the syringe is connected to a catheter via a specific adapter. In this system, the connection device therefore does not comprise a needle holder waiting to be connected with the syringe body. This system is therefore not suitable for reconstituting a drug for an injection.
Additionally, US-A-2014/0261877 discloses a very particular system, designed to reconstitute a cancer drug (oncology). This system makes it possible to transfer a liquid, completely sealably and without pressure differential, from a vessel closed off by a perforable stopper toward a syringe. The system includes a connecting device between the vessel and the syringe, which comprises a first adapter on the syringe side, and a second adapter on the vessel side. The second adapter comprises a hollow perforating member of the stopper. The first adapter has a canula holder waiting to be connected with the syringe and having a canula, one end of which emerges in the inner volume of the hollow member (see
In the field of reconstituting drugs, a device is also known from WO-A-2012/168,235 making it possible to connect a vessel provided with a neck closed off by a perforable stopper with a container intended to be equipped with a needle. Typically, this container is a syringe body. The device comprises a base configured to be mounted on the vessel and comprising a hollow body for perforating the stopper. This hollow member has an opening that places an inner volume of the hollow member in communication with an inner volume of the vessel when the base is mounted on the vessel, i.e., when the stopper is perforated. The connection device also comprises a needle holder, which is waiting to be connected with the syringe body and which is detachable from the base. In particular, the needle holder is provided to be screwed inside a nut mounted on the end part of the syringe body. The needle holder is received inside the base so as to place, through the hollow needle, the inner volume of the hollow member in communication with the inner volume of the syringe body when the needle holder is connected to the syringe body.
The vessel generally contains a drug in orodispensable tablet form, while the syringe body contains a solvent. The drug is obtained by dissolving the orodispensable tablet in the solvent. To prepare an injectable solution using this device, it is necessary to begin by mounting the base on the vessel, so as to perforate the stopper with the perforating member. Next, the needle holder and the syringe body should be sealably connected, and the solvent present in the syringe body should be injected into the vessel. Then, the vessel, the connection device and the syringe body, then assembled, should be arranged in a position where the contents of the vessel flow toward the inner volume of the syringe body. In particular, the contents of the vessel pass through the inner volume of the hollow perforating member and through the central channel of the needle.
Once the drug is reconstituted, the syringe body and needle holder assembly can then be disconnected from the vessel. This assembly forms a ready-to-use syringe, which is shown in FIG. 13 of WO-A-2012/168,235. As shown in this figure, the hollow needle is exposed, which means that there is a risk of being stuck before and after the injection. There is therefore a risk of disease transmission, such as HIV. The syringe therefore does not comply with the European guidelines and the recommendations by the American Food and Drug Administration (FDA) regarding any device bearing a needle.
The invention more particularly aims to resolve these drawbacks by proposing a connecting device with which the container, then connected to the needle holder, is safer once it is disconnected from the vessel.
To that end, the invention relates to a connecting device between a vessel closed off by a perforable stopper and a container, such as a syringe body, this device comprising:
Owing to the invention, when the container is separated from the vessel, in particular when the drug is reconstituted, the sheath and the return means together form a safety system seeking to protect the needle before and after use. In particular, the sheath tends, under the action of the return means, to occupy a position where it covers the needle, which prevents accidentally being stuck before injection and limits the risk of breaking. During an injection, the sheath withdraws in contact with the skin to expose the needle, which can then penetrate the epidermis to perform the injection. At the end of the injection, the sheath again covers the needle under the effect of the return means and then once again covers the needle, in order to protect the needle after the injection and thereby prevent accidental sticking after the injection.
According to advantageous, but optional aspects of the invention, such a connecting device comprises any one of the following features, considered in any technically allowable combination:
In one configuration where the needle holder is detached from the base, the sheath is movable between a first position where it covers the needle and a second position, where the needle is exposed and the return means are configured to return the sheath to its first position.
The invention also relates to a connecting assembly, comprising a vessel closed off by a perforable stopper, a container and a connecting device as previously defined.
The invention lastly relates to a method for filling a container intended to be equipped with a needle with a product contained in a vessel closed off by a perforable stopper. According to the invention, this method comprises the following steps:
a) mounting a connecting device as previously defined on the vessel to perforate the stopper with the perforating member,
b) connecting the container with the needle holder,
c) injecting a liquid present in the container into the vessel, through the central channel of the needle and the inner volume of the perforating member,
d) arranging the vessel, the connecting device and the container in a position where the contents of the vessel flow toward the inner volume of the container, through the inner volume of the perforating member and the central channel of the needle, and
e) disconnecting the container and the vessel, the needle holder then being removed from the base and the sheath being maintained or returned by the return means into a first position where it covers the needle.
The invention and other advantages thereof will appear more clearly in light of the following description of one embodiment of a connecting device according to its principle, provided as an example and done in reference to the drawings, in which:
The vessel 20 shown in
In an alternative that is not shown, the vessel 20 comprises, in place of the plastic cap 24, an aluminum ring crimped around the neck 220 of the vial 22. In this case, the resilient tabs 142 of the skirt 141 are jammed bearing against a lower face of the neck 220, which provides the fastening of the base 14 on the vessel 20. The device 10 is therefore compatible with the vessels with plastic caps, of the type of that shown in the figures, and the vessels with aluminum caps.
The container 30 shown in
As shown in
As shown in
As shown in
As shown in
An elastomeric sealing sleeve 13 is mounted inside the chimney 140, as shown in
The sleeve 13 comprises a bottom wall 130 that is traversed by a metal needle 180. The needle 180 is a hypodermic needle intended to traverse the skin of the human body to inject a substance. The needle 180 includes a beveled end 180a, which has a height h180a that is greater than a height h130 of the bottom wall 130, the height h130 and the height h180a being measured parallel to the axis X13. Thus, there is no coring of the sleeve 13 when the needle 180 traverses its bottom wall 130.
The end 180a of the needle 180 emerges in the inner volume V144 of the hollow member 144. The sleeve 13 provides sealed communication between the inner volume V144 of the hollow member 144 and the central channel of the needle 180.
As shown in particular in
Still in reference to
Each pin 160 is engaged in a corresponding opening 110 of a sheath 11 arranged coaxially around the collar 16. Each opening 110 of the sheath 11 is Y-shaped, i.e., it has a first branch 110a and a second branch 110b that each extend from an axial corridor 110c. The sheath 11 is then connected to the collar 16 by cooperation of the pins 160 with the openings 110.
The sheath 11 has a tubular shape and defines a central axis X11, along which it is movable relative to the collar 16. The sheath 11 therefore defines two opposite orifices along the axis X11. The two orifices are substantially the same size. Advantageously, the sheath 11 is made from a rigid material, such as plastic. Unlike the resilient sealing sleeve disclosed in US-A-2014/0261877, the sheath 11 is not deformable in compression in the direction of the axis X11.
Return means 15 make it possible to keep the sheath 11 in a preliminary position, in which the sheath 11 is axially abutting against the base 14 and in which the pins 160 are at the intersection between the first branch 110a and the corridor 110c of the openings 110. The return means 15 comprise a spring inserted axially between the collar 16 and an inner radial shoulder of the sheath 11, arranged at the end.
In the assembled state of the device 10, the axes X11, X13, X18, X16 and X14 are combined with a same axis X10 of the device 10
Below, in reference to
A first step shown in
When the base 14 is mounted on the vessel 20, the hollow member 144 perforates the stopper 26, such that the inner volume V144 of the hollow member 144 communicates with the inner volume V22 of the vial 22 through the openings 146. In this configuration, the needle holder 18 is waiting to be connected with the end part 320 of the container 30. Furthermore, the axes X10 and X22 are combined.
A second step shown in
A third step shown in
A fourth step shown in
When the drug M has been completely transferred from the vessel 20 to the container 30, the user can disconnect the container 30 and the vessel 20, as shown by the arrows F8 in
After disconnection, i.e., in a configuration where the needle holder 18 is detached from the base 14, the protective sheath 11 moves from the preliminary position toward a first position under the return force exerted by the spring 15. This movement is illustrated by arrow F9 in
During an injection, the user presses the syringe S against the epidermis of the patient, which causes the protective sheath 11 to withdraw in contact with the skin, against the resilient force of the spring 15, from its first position toward a second position. This movement is illustrated by arrows F10 in
When the injection is complete and the syringe S is removed from the patient's body, the protective sheath 11 moves from its second position toward its first position under the action of the spring 15. Each pin 160 then moves from the bottom of the corridor 110c toward the bottom of the branch 110b of the corresponding radial opening 110. This results in rotating the sheath 11 around its axis X11. The syringe S is then in the configuration of
Each opening 110 is configured such that, when the sheath 11 withdraws from its first position toward its first position and returns to its first position, it pivots around the axis X11 in the counterclockwise direction when one looks at the needle 180 from the side. Thus the sheath 11, by pivoting around its axis X11, exerts a torque on the collar 16 that is oriented in the counterclockwise direction. Advantageously, this torque tends to further screw the needle holder 18 inside the collar 16. Thus, the needle holder 18 does not risk unscrewing during an injection. In other words, the sheath 11 rotates in the screwing direction of the needle holder 18.
As shown in
In the example of the figures, the preliminary position is a position midway between the first position and the second position. The sheath 11 is then shorter and narrower than if the device was arranged such that the sheath 11 would be in the first position in the configuration mounted on the vessel 20. This position at the mid-point therefore limits the bulk of the device 10 in the radial and axial directions.
In an alternative that is not shown, another system is used to connect the needle holder 18 to the syringe body 32. For example, this may be a screwed system, of the “luer lock” (registered trademark) type. This system has the advantage that the needle holder 18 is easy to disassemble.
In an alternative that is not shown, a container 30 other than a syringe body is used.
The features of the main embodiment and alternatives considered above may be combined with one another to create new embodiments of the invention.
Number | Date | Country | Kind |
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15 61578 | Nov 2015 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/079117 | 11/29/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/093243 | 6/8/2017 | WO | A |
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Number | Date | Country |
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102046229 | May 2011 | CN |
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Entry |
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French Search Report for French Application No. FR 15 51578 dated Aug. 30, 1985. |
International Search Report for PCT/EP2016/079117 dated Mar. 6, 2017. |
International Written Opinion for PCT/EP2016/079117 dated Mar. 6, 2017. |
Number | Date | Country | |
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20190175450 A1 | Jun 2019 | US |